<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE article
PUBLIC "-//NLM//DTD JATS (Z39.96) Journal Publishing DTD v1.4 20190208//EN"
       "JATS-journalpublishing1.dtd">
<article xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" article-type="research-article" dtd-version="1.4" xml:lang="en">
 <front>
  <journal-meta>
   <journal-id journal-id-type="publisher-id">From Chemistry Towards Technology Step-By-Step</journal-id>
   <journal-title-group>
    <journal-title xml:lang="en">From Chemistry Towards Technology Step-By-Step</journal-title>
    <trans-title-group xml:lang="ru">
     <trans-title>От химии к технологии шаг за шагом</trans-title>
    </trans-title-group>
   </journal-title-group>
   <issn publication-format="online">2782-1900</issn>
  </journal-meta>
  <article-meta>
   <article-id pub-id-type="publisher-id">127836</article-id>
   <article-id pub-id-type="doi">10.52957/2782-1900-2026-7-2-120-130</article-id>
   <article-categories>
    <subj-group subj-group-type="toc-heading" xml:lang="ru">
     <subject>Научные статьи</subject>
    </subj-group>
    <subj-group subj-group-type="toc-heading" xml:lang="en">
     <subject>Scientific articles</subject>
    </subj-group>
    <subj-group>
     <subject>Научные статьи</subject>
    </subj-group>
   </article-categories>
   <title-group>
    <article-title xml:lang="en">Prospects for the use of dielectric barrier discharge for diagnostics and monitoring of metals in water bodies in the Ivanovo region</article-title>
    <trans-title-group xml:lang="ru">
     <trans-title>Prospects for the use of dielectric barrier discharge for diagnostics and monitoring of metals in water bodies in the Ivanovo region</trans-title>
    </trans-title-group>
   </title-group>
   <contrib-group content-type="authors">
    <contrib contrib-type="author">
     <name-alternatives>
      <name xml:lang="ru">
       <surname>Ситанов</surname>
       <given-names>Дмитрий Вячеславович</given-names>
      </name>
      <name xml:lang="en">
       <surname>Sitanov</surname>
       <given-names>Dmitry Vyacheslavovich</given-names>
      </name>
     </name-alternatives>
     <bio xml:lang="ru">
      <p>кандидат химических наук;</p>
     </bio>
     <bio xml:lang="en">
      <p>candidate of chemical sciences;</p>
     </bio>
     <xref ref-type="aff" rid="aff-1"/>
    </contrib>
    <contrib contrib-type="author">
     <name-alternatives>
      <name xml:lang="ru">
       <surname>Разговоров</surname>
       <given-names>Павел Борисович</given-names>
      </name>
      <name xml:lang="en">
       <surname>Razgovorov</surname>
       <given-names>Pavel Borisovich</given-names>
      </name>
     </name-alternatives>
     <email>razgovorovpb@ystu.ru</email>
     <bio xml:lang="ru">
      <p>доктор технических наук;</p>
     </bio>
     <bio xml:lang="en">
      <p>doctor of technical sciences;</p>
     </bio>
     <xref ref-type="aff" rid="aff-2"/>
    </contrib>
    <contrib contrib-type="author">
     <name-alternatives>
      <name xml:lang="ru">
       <surname>Блинов</surname>
       <given-names>Даниил Игоревич</given-names>
      </name>
      <name xml:lang="en">
       <surname>Blinov</surname>
       <given-names>Daniil Igorevich</given-names>
      </name>
     </name-alternatives>
     <xref ref-type="aff" rid="aff-1"/>
    </contrib>
    <contrib contrib-type="author">
     <name-alternatives>
      <name xml:lang="ru">
       <surname>Лебедев</surname>
       <given-names>Денис Александрович</given-names>
      </name>
      <name xml:lang="en">
       <surname>Lebedev</surname>
       <given-names>Denis Alexandrovich</given-names>
      </name>
     </name-alternatives>
     <xref ref-type="aff" rid="aff-1"/>
    </contrib>
   </contrib-group>
   <aff-alternatives id="aff-1">
    <aff>
     <institution xml:lang="ru">Ивановский государственный химико-технологический университет</institution>
    </aff>
    <aff>
     <institution xml:lang="en">Ivanovo State University of Chemistry and Technology</institution>
    </aff>
   </aff-alternatives>
   <aff-alternatives id="aff-2">
    <aff>
     <institution xml:lang="ru">Ярославский государственный технический университет</institution>
    </aff>
    <aff>
     <institution xml:lang="en">Yaroslavl State Technical University</institution>
    </aff>
   </aff-alternatives>
   <pub-date publication-format="print" date-type="pub" iso-8601-date="2026-07-10T07:09:17+03:00">
    <day>10</day>
    <month>07</month>
    <year>2026</year>
   </pub-date>
   <pub-date publication-format="electronic" date-type="pub" iso-8601-date="2026-07-10T07:09:17+03:00">
    <day>10</day>
    <month>07</month>
    <year>2026</year>
   </pub-date>
   <volume>7</volume>
   <issue>2</issue>
   <fpage>120</fpage>
   <lpage>130</lpage>
   <history>
    <date date-type="received" iso-8601-date="2026-03-02T00:00:00+03:00">
     <day>02</day>
     <month>03</month>
     <year>2026</year>
    </date>
    <date date-type="accepted" iso-8601-date="2026-04-23T00:00:00+03:00">
     <day>23</day>
     <month>04</month>
     <year>2026</year>
    </date>
   </history>
   <self-uri xlink:href="https://chemintech.ru/en/nauka/article/127836/view">https://chemintech.ru/en/nauka/article/127836/view</self-uri>
   <abstract xml:lang="ru">
    <p>The paper demonstrates the potential applications of optical emission spectroscopy. A dielectric barrier discharge is used as the excitation source. It is implemented on a ‘Partsko’ experimental device with a mica plate (frequency 1–50 kHz, voltage on electrodes 3–5 kV) for diagnostics and monitoring of pollutants, in particular metals, in natural water bodies. This physico-chemical method is innovative and promising for identifying and analysing sources of metal contamination in wastewater from industrial enterprises, agricultural organisations, domestic facilities, and transport infrastructure.</p>
   </abstract>
   <trans-abstract xml:lang="en">
    <p>The paper demonstrates the potential applications of optical emission spectroscopy. A dielectric barrier discharge is used as the excitation source. It is implemented on a ‘Partsko’ experimental device with a mica plate (frequency 1–50 kHz, voltage on electrodes 3–5 kV) for diagnostics and monitoring of pollutants, in particular metals, in natural water bodies. This physico-chemical method is innovative and promising for identifying and analysing sources of metal contamination in wastewater from industrial enterprises, agricultural organisations, domestic facilities, and transport infrastructure.</p>
   </trans-abstract>
   <kwd-group xml:lang="en">
    <kwd>dielectric barrier discharge</kwd>
    <kwd>optical emission spectroscopy</kwd>
    <kwd>water bodies in the Ivanovo Region</kwd>
    <kwd>identification of contaminants</kwd>
    <kwd>metal monitoring</kwd>
   </kwd-group>
  </article-meta>
 </front>
 <body>
  <p></p>
 </body>
 <back>
  <ref-list>
   <ref id="B1">
    <label>1.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Goodilin D.Yu. Optical emission spectroscopy of glow discharge: capabilities of the method and equipment. Laboratory and Production. 2021, 1 (16), 54-61. DOI: 10.32757/2619-0923.2021.1.16.54.61.</mixed-citation>
     <mixed-citation xml:lang="en">Goodilin D.Yu. Optical emission spectroscopy of glow discharge: capabilities of the method and equipment. Laboratory and Production. 2021, 1 (16), 54-61. DOI: 10.32757/2619-0923.2021.1.16.54.61.</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B2">
    <label>2.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Golubyatnikov G.Yu., Koshelev M.A., Tsvetkov A.I., Fokin A.P., Ananichev A.A., Glyavin M.Yu., Tretyakov M.Yu. Application of gyrotrons for molecular gas spectroscopy. News of universities. Radiophysics. 2022, 65(3), 169-183. DOI: 10.52452/00213462_2022_65_03_169.</mixed-citation>
     <mixed-citation xml:lang="en">Golubyatnikov G.Yu., Koshelev M.A., Tsvetkov A.I., Fokin A.P., Ananichev A.A., Glyavin M.Yu., Tretyakov M.Yu. Application of gyrotrons for molecular gas spectroscopy. News of universities. Radiophysics. 2022, 65(3), 169-183. DOI: 10.52452/00213462_2022_65_03_169.</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B3">
    <label>3.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Rothbart N., Stanley V., Koczulla R., Jarosch I., Holz O., Schmalz K., Hübers H.-W. Millimeter-wave gas spectroscopy for breath analysis of COPD patients in comparison to GC-MS. J. Breath Res. 2022, 16, 46001-46015. DOI: 10.1088/1752-7163/ac77aa.</mixed-citation>
     <mixed-citation xml:lang="en">Rothbart N., Stanley V., Koczulla R., Jarosch I., Holz O., Schmalz K., Hübers H.-W. Millimeter-wave gas spectroscopy for breath analysis of COPD patients in comparison to GC-MS. J. Breath Res. 2022, 16, 46001-46015. DOI: 10.1088/1752-7163/ac77aa.</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B4">
    <label>4.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Krähling T., Müller S., Meyer C., Stark A.-K, Franzke J. Liquid electrode dielectric barrier discharge for the analysis of solved metal. J. Anal. At. Spectrom. 2011, 26(10), 1974-1978. DOI: 10.1039/c1ja10138b.</mixed-citation>
     <mixed-citation xml:lang="en">Krähling T., Müller S., Meyer C., Stark A.-K, Franzke J. Liquid electrode dielectric barrier discharge for the analysis of solved metal. J. Anal. At. Spectrom. 2011, 26(10), 1974-1978. DOI: 10.1039/c1ja10138b.</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B5">
    <label>5.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Tombrink S., Müller S., Heming R., Michels A., Lampen P., Franzke J. Liquid analysis dielectric capillary barrier discharge. Anal. Bioanal. Chem. 2010, 397(7), 2917–2922. DOI: 10.1007/s00216-010-3844-z.</mixed-citation>
     <mixed-citation xml:lang="en">Tombrink S., Müller S., Heming R., Michels A., Lampen P., Franzke J. Liquid analysis dielectric capillary barrier discharge. Anal. Bioanal. Chem. 2010, 397(7), 2917–2922. DOI: 10.1007/s00216-010-3844-z.</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B6">
    <label>6.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Luchinin V., Kolyadin A., Yagudayev Yu., Ilyin S. Diamond of electronic quality. Innovations. Investments. Creative projects. Electronics: Science, Technology, Business. 2023, 4 (225), 70-89. DOI: 10.22184/1992-41782023.225.4.70.89.</mixed-citation>
     <mixed-citation xml:lang="en">Luchinin V., Kolyadin A., Yagudayev Yu., Ilyin S. Diamond of electronic quality. Innovations. Investments. Creative projects. Electronics: Science, Technology, Business. 2023, 4 (225), 70-89. DOI: 10.22184/1992-41782023.225.4.70.89.</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B7">
    <label>7.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Sitanov D.V., Blinov D.I. Metal content monitoring in the biological structures. From Chemistry Towards Technology Step-By-Step. 2024, 5(1), 137-144. http://chemintech.ru/index.php/tor/issue/view/2024-5-1</mixed-citation>
     <mixed-citation xml:lang="en">Sitanov D.V., Blinov D.I. Metal content monitoring in the biological structures. From Chemistry Towards Technology Step-By-Step. 2024, 5(1), 137-144. http://chemintech.ru/index.php/tor/issue/view/2024-5-1</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B8">
    <label>8.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Bae G.T, Kim J.Y., Kim D. Y., Jung E. Y., Jang H. J, Park Ch.-S, Jang H., Lee D.H., Lee H.-K., Tae H.-S. Potential Application of Pin-to-Liquid Dielectric Barrier Discharge Structure in Decomposing Aqueous Phosphorus Compounds for Monitoring Water Quality. Materials. 2021, 14 (24), 7559-7571. DOI: 10.3390/ma14247559.</mixed-citation>
     <mixed-citation xml:lang="en">Bae G.T, Kim J.Y., Kim D. Y., Jung E. Y., Jang H. J, Park Ch.-S, Jang H., Lee D.H., Lee H.-K., Tae H.-S. Potential Application of Pin-to-Liquid Dielectric Barrier Discharge Structure in Decomposing Aqueous Phosphorus Compounds for Monitoring Water Quality. Materials. 2021, 14 (24), 7559-7571. DOI: 10.3390/ma14247559.</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B9">
    <label>9.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Davletshina G.I., Fridland S.V. The influence of mineral composition of drinking water on the health of the population of Magnitogorsk. Life Safety. 2010, 11 (119), 15-19.</mixed-citation>
     <mixed-citation xml:lang="en">Davletshina G.I., Fridland S.V. The influence of mineral composition of drinking water on the health of the population of Magnitogorsk. Life Safety. 2010, 11 (119), 15-19.</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B10">
    <label>10.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Kazakova N.A., Sadretdinova L.R., Mukhametshin A.A. Study of soils in the territories of industrial enterprises for the presence of heavy metals. Eurasian Union of Scientists. 2019, 12-2 (69), 9-13.</mixed-citation>
     <mixed-citation xml:lang="en">Kazakova N.A., Sadretdinova L.R., Mukhametshin A.A. Study of soils in the territories of industrial enterprises for the presence of heavy metals. Eurasian Union of Scientists. 2019, 12-2 (69), 9-13.</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B11">
    <label>11.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Izvekova T.V., Gusev G.I., Gordina N.E., Sitanov R.D., Gushchin A.A. Assessment of the impact of a sludge storage facility for iron-containing waste on environmental components. News of higher educational institutions. Series: Chemistry and Chemical Technology. 2024, 11 (67), 145-153. DOI: 10.6060/ivkkt.20246711.7140.</mixed-citation>
     <mixed-citation xml:lang="en">Izvekova T.V., Gusev G.I., Gordina N.E., Sitanov R.D., Gushchin A.A. Assessment of the impact of a sludge storage facility for iron-containing waste on environmental components. News of higher educational institutions. Series: Chemistry and Chemical Technology. 2024, 11 (67), 145-153. DOI: 10.6060/ivkkt.20246711.7140.</mixed-citation>
    </citation-alternatives>
   </ref>
   <ref id="B12">
    <label>12.</label>
    <citation-alternatives>
     <mixed-citation xml:lang="ru">Khrushchev A.Yu., Akmaev E.R., Bondarenko V.O., Metlin A.E. Use of potassium hexacyanoferrate (III) as an internal standard in the quantitative determination of ketoprofen by Raman spectroscopy. Agrarian science. 2020, 1, 13-16. DOI: 10.32634/0869-8155-2020-334-1-13-16.</mixed-citation>
     <mixed-citation xml:lang="en">Khrushchev A.Yu., Akmaev E.R., Bondarenko V.O., Metlin A.E. Use of potassium hexacyanoferrate (III) as an internal standard in the quantitative determination of ketoprofen by Raman spectroscopy. Agrarian science. 2020, 1, 13-16. DOI: 10.32634/0869-8155-2020-334-1-13-16.</mixed-citation>
    </citation-alternatives>
   </ref>
  </ref-list>
 </back>
</article>
